公开(公告)号：US20160161188A1

公开(公告)日：2016-06-09

申请号：US14561500

申请日：2014-12-05

Applicant: SCHLUMBERGER TECHNOLOGY CORPORATION

Inventor： Jonathan Wun Shiung Chong ,  Rod William Shampine ,  Garud Bindiganavale Sridhar ,  Christopher Joseph Decker ,  Gregoire Omont ,  Rajesh Luharuka

IPC: F28D1/02 ,  E21B43/26 ,  F28D1/04

CPC classification number: F28D1/0213 ,  E21B43/26 ,  F28D1/0226 ,  F28D1/0408 ,  F28D20/00 ,  F28D2020/0026 ,  Y02E60/142

Abstract: A technique facilitates removal of heat. The technique involves moving a process fluid through a buffer tank which is combined with a heat exchange system. The heat exchange system includes a conduit carrying a coolant fluid which removes excess heat from a heat source. The conduit is routed to the buffer tank so that the cooler process fluid moving through the buffer tank is able to remove heat from the coolant fluid before it is routed back to the heat source for continued heat removal. In a well application, for example, a heat source, e.g. an electric motor, may be located on a transport vehicle and cooled by the coolant fluid. The heat transferred to the coolant fluid from the heat source is removed by routing the coolant fluid through the conduit associated with the buffer tank. This enables the cooler process fluid in the buffer tank to be used in lowering the temperature of the coolant fluid.

Abstract translation: 一种技术有助于去除热量。 该技术涉及将过程流体移动通过与热交换系统组合的缓冲罐。 热交换系统包括承载冷却剂流体的管道，其从热源中除去多余的热量。 导管被引导到缓冲罐，使得通过缓冲罐移动的较冷的过程流体能够在其被引导回热源之前从冷却剂流体中除去热量以便继续除热。 在井应用中，例如，热源，例如， 电动机可以位于运输车辆上并且被冷却剂流体冷却。 通过将冷却剂流体通过与缓冲罐相关联的管道布置来去除从热源传递到冷却剂流体的热量。 这使得缓冲罐中的较冷的工艺流体能够用于降低冷却剂流体的温度。

公开(公告)号：US10544343B2

公开(公告)日：2020-01-28

申请号：US15308255

申请日：2015-05-04

Applicant: Schlumberger Technology Corporation

Inventor： Avinash Ramesh ,  Garud Bindiganavale Sridhar ,  Jonathan Wun Shiung Chong ,  Rajesh Luharuka ,  Lewis Callaway ,  Gregoire Omont ,  Ivan Alaniz

IPC: C09K8/02 ,  E21B21/06 ,  C09K8/42 ,  C09K8/62 ,  E21B41/00 ,  G01N11/02 ,  E21B33/13 ,  E21B43/26

Abstract: Disclosed herein is a method for viscosity measurement of non-Newtonian fluid for in-line measurement and process control. The process involves mixing additives to a base fluid to form the non-Newtonian fluid. The non-Newtonian fluid is fed to an in-line viscosity measurement device to obtain a rheological measurement. The addition of the additives to the base fluid is then adjusted based on the rheological measurement. A system for accomplishing the same is also disclosed.

公开(公告)号：US11661834B2

公开(公告)日：2023-05-30

申请号：US16924417

申请日：2020-07-09

Applicant: Schlumberger Technology Corporation

Inventor： Gregoire Omont ,  Rajesh Luharuka ,  Corey Ray ,  Jonathan Wun Shiung Chong ,  Chuong Nguyen ,  Lewis Callaway ,  Liang Du

IPC: E21B44/00 ,  G06Q50/02 ,  E21B21/06 ,  E21B33/13 ,  G06Q10/20 ,  E21B43/26 ,  E21B33/138 ,  E21B43/16 ,  E21B43/247 ,  E21B43/25 ,  E21B43/267 ,  E21B21/16

CPC classification number: E21B44/005 ,  E21B21/062 ,  E21B33/13 ,  E21B33/138 ,  E21B43/162 ,  E21B43/247 ,  E21B43/255 ,  E21B43/2607 ,  E21B43/267 ,  G06Q10/20 ,  G06Q50/02 ,  E21B21/16

Abstract: A monitoring system operable to monitor an oilfield additive system having multiple components. The oilfield additive system is operable to transfer an additive-containing substance for injection into a wellbore. The monitoring system includes sensors each associated with, and operable to generate information related to an operational parameter of, a corresponding one of the oilfield additive system components. The monitoring system also includes a monitoring device in communication with the sensors and operable to record the information generated by the sensors to generate a database. The database includes information indicative of maintenance aspects of the oilfield additive system and/or the oilfield additive system components.

公开(公告)号：US10295263B2

公开(公告)日：2019-05-21

申请号：US14561500

申请日：2014-12-05

Applicant: SCHLUMBERGER TECHNOLOGY CORPORATION

Inventor： Jonathan Wun Shiung Chong ,  Rod William Shampine ,  Garud Bindiganavale Sridhar ,  Christopher Joseph Decker ,  Gregoire Omont ,  Rajesh Luharuka

IPC: F28D1/04 ,  F28D1/02 ,  E21B43/26 ,  F28D20/00

Abstract: A technique facilitates removal of heat. The technique involves moving a process fluid through a buffer tank which is combined with a heat exchange system. The heat exchange system includes a conduit carrying a coolant fluid which removes excess heat from a heat source. The conduit is routed to the buffer tank so that the cooler process fluid moving through the buffer tank is able to remove heat from the coolant fluid before it is routed back to the heat source for continued heat removal. In a well application, for example, a heat source, e.g. an electric motor, may be located on a transport vehicle and cooled by the coolant fluid. The heat transferred to the coolant fluid from the heat source is removed by routing the coolant fluid through the conduit associated with the buffer tank. This enables the cooler process fluid in the buffer tank to be used in lowering the temperature of the coolant fluid.